Example #1
0
def simple_2d(seed=13, num_particles=2):
    np.random.seed(seed)

    positions = np.random.uniform(0, 3, (num_particles, 2))
    colors = np.random.rand(num_particles, 4)
    orientations = np.random.rand(num_particles, 4)
    orientations[:, 1:3] = 0
    orientations /= np.linalg.norm(orientations, axis=-1, keepdims=True)

    thetas = np.linspace(0, 2*np.pi, 5, endpoint=False)
    vertices = np.array([np.cos(thetas), np.sin(thetas)]).T

    prim1 = draw.Arrows2D(positions=positions, colors=colors*.5,
                          orientations=orientations, magnitudes=[.25, .5])
    prim1.vertices = prim1.vertices - (-.5, 0)
    prim2 = draw.Disks(outline=.05, positions=positions,
                       colors=colors, diameters=np.ones((num_particles,)))
    prim3 = draw.Polygons(positions=-positions, colors=colors, vertices=vertices,
                          outline=.05, orientations=orientations)
    prim4 = draw.Spheropolygons(positions=-positions, colors=colors,
                                vertices=vertices, outline=.05,
                                orientations=orientations)
    prim4.radius = .1
    prim4.positions = prim3.positions + (3, 2)

    scene = draw.Scene([prim2, prim3, prim4, prim1], zoom=4, features=dict(pan=True))
    return scene
Example #2
0
def sunflower_2d(seed=13):

    center_disk = draw.Disks(outline=.05, positions=np.zeros((1, 2)),
                             colors=np.array([0.225, 0.1, 0., 1]),
                             diameters=np.sqrt(3))
    thetas = np.linspace(0, 2*np.pi, 6, endpoint=False)
    vertices = np.array([np.cos(thetas), np.sin(thetas)]).T
    orientations = np.array([[np.cos(np.pi/12), 0, 0, np.sin(np.pi/12)]] * 6)
    petals = draw.Polygons(positions=np.sqrt(3)*vertices, colors=np.array([[0.9, 0.7, 0, 1]]*6),
                           vertices=vertices, outline=.05, orientations=orientations)

    """
    prim2 = draw.Disks(outline=.05, positions=positions,
                       colors=colors, diameters=np.ones((num_particles,)))
    prim3 = draw.Polygons(positions=-positions, colors=colors, vertices=vertices,
                          outline=.05, orientations=orientations)
                          """

    scene = draw.Scene([center_disk, petals], zoom=4, features=dict(pan=True))
    return scene
Example #3
0
def concave_2d(seed=16, num_particles=3):
    np.random.seed(seed)

    positions = np.random.uniform(0, 6, (num_particles, 2))
    colors = np.random.rand(num_particles, 4)
    colors[:, 3] = 1
    angles = np.random.uniform(0, 2 * np.pi, num_particles)

    thetas = np.linspace(0, 2 * np.pi, 7, endpoint=False)
    rs = [.1, .5, .5, .2, .5, .5, .5]
    vertices = np.array([rs * np.cos(thetas), rs * np.sin(thetas)]).T

    prim1 = draw.Polygons(positions=positions,
                          colors=colors,
                          angles=angles,
                          vertices=vertices)
    prim2 = draw.Spheropolygons(radius=.1,
                                colors=colors,
                                angles=angles,
                                vertices=vertices)
    prim2.positions = -prim1.positions

    scene = draw.Scene([prim1, prim2], zoom=4, features=dict(pan=True))
    return scene